Acquire ESRF technologies
As a world leading synchrotron, the ESRF has developed unique technologies and equipment that makes it one of the most productive synchrotrons worldwide. The ESRF believes that these innovations which are used daily for its own user programmes, should also be of benefit to other institutes and industry.
Selected developments and technologies are available directly from the ESRF or under a license as a technology transfer to industry. It is on this basis that the the ESRF has developed its first spin-off, Small Infinity, for the commercialisation of first-class atomic force microscopes (AFM).
Our technology transfer policy
- promotes the use of ESRF technologies to benefit society through licensing to companies who turn them into successful commercial products
- supports the innovative goal of the ESRF by generating licensing income which is recycled to our user and development programmes, and contributes to the recognition of the inventors
- develops partnerships with local and international industrial networks.
For more information, please contact Dr Edward Mitchell, Business Development Manager.
Our in-house production
Beamline Instrumentation
Crystal optics
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The Crystal Laboratory manufactures perfect monochromator crystals for all ESRF beamlines. Most crystals are made from top
purity silicon float zone ingots 100 mm in diameter and up to 1 m long. |
Miniature ionisation chamber
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A small windowless ionisation chamber was developed
for monitoring and correcting the intensity of an incoming microbeam.
Kocsis M. and Somogyi A. - "Miniature ionization chamber detector" -
Journal of Synchrotron Radiation - Vol.10 - pp.187-190 - 2003. |
Storage Ring Instrumentation
Magnetic measuring bench
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The
Insertion Device field measurement systems developed at the ESRF incorporate 18
years of experience. More than
100 devices (undulators, wigglers, helical undulators, in-vacuum undulators)
have been successfully processed with accurate and fast measuring systems. |
Control and Data Analysis
DASY
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DASY (Delay line detector Acquisition
System) is a simple yet efficient
readout system for delay-line based position-sensitive detectors.
It is based on the P111 (ESRF
design) PCI Time-to-Digital Converter (TDC) with built-in fast histogramming
memory. A comprehensive software support runs under the WINDOWS® operating system. |
PCI time-to-digital converter
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C111 (or P111) is a simple to use yet powerful time-to-digital
converter (TDC) implemented in the CompactPCI (or PCI) format. Both
variants are 100% compatible. |
ASG217
ASG217 is a 16-channel pre-amplifier/discriminator
developed to meet the requirements of parallel binary readout of gaseous detectors such as
wire chambers. Each individual channel features a DAC for fine discriminator threshold
setting.
More information (pdf) - Contact us
MUSST
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MUSST is an NIM module that produces trigger
patterns synchronised with external events. A trigger pattern is a sequence of
trigger output signals that can be adapted to the specific needs of a
particular experiment and used to synchronise the different beamline
components involved. In addition, the built-in data storage capability makes
it possible to use the module as a data acquisition unit. |
IcePAP - intelligent motor control system
IcePAP is a motor control system developed at
the ESRF and optimised for high-resolution position applications. The emphasis has
been put on covering most of the requirements of synchrotron radiation experiments at the ESRF beamlines.
More information - Contact us.
Detectors
MAXIPIX
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MAXIPIX (Multichip Assembly for X-ray Imaging based on a
photon counting pixel array) is an in-house developed detector
exploiting the Medipix2
readout chip. It was developed in order to meet the growing needs of ESRF beamlines for
fast and/or noise-free X-ray area detectors with small pixels, in
particular in XPCS, microSAXS, inelastic scattering and surface
diffraction. |
2D gas detector
Technical information (pdf 59.5kb)
If you require details, please contact us.
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